EP2731899A1

EP2731899A1 - Drive for a bobbin-winding machine

Info

Publication number: EP2731899A1
Application number: EP12735431.4A
Authority: EP
Inventors: Petr Haska; Christian Griesshammer
Original assignee: Maschinenfabrik Rieter AG
Current assignee: Maschinenfabrik Rieter AG
Priority date: 2011-07-15
Filing date: 2012-06-29
Publication date: 2014-05-21
Anticipated expiration: 2032-06-29
Also published as: CN103748026A; US20140239114A1; WO2013010281A1; EP2731899B1; US9695007B2; JP2014522795A; CN103748026B; CH705237A1; JP6025843B2

Abstract

The invention relates to a drive unit for driving a turret winding head for winding roving onto bobbin tubes. The drive unit comprises a closed housing (20), a first and a second spindle (4, 6) arranged in a turret base plate (2), wherein the turret base plate (2) is formed as a part of the housing (20) and the spindles (4, 6) are arranged outside the housing (20), and a first drive (25, 26, 28) for the first spindle and a second drive for the second spindle, wherein the drives are arranged within the housing (20) and the first and the second drive are each equipped with a fan wheel (24). An intake duct (23), through which air is drawn in by the fan wheel from outside the housing (20), is in each case provided on the intake side of the fan wheel (24) of the first and second drive.

Description

Drive a winder

The invention relates to a drive unit for driving a turret winding head for winding roving on winding tubes.

With roving so-called rovings or lunts are produced, which as a template for the spinning to a fiber yarn, for example, on a

Ring spinning machine can be used. The roving used for the template for ring spinning machines is usually made from a conveyor belt, which is warped on a drafting of the roving and then receives a slight rotation, so that the roving can be wound on a bobbin without distortion. The given rotation may only be so high that the cohesion of the fibers for the winding and rewinding and the transport of the coils is strong enough. On the other hand, this so-called protective rotation with regard to the distortion on ring spinning machines must be so low that no distortion disturbances occur in the further processing process. The roving must be delayable despite the introduced protective rotation.

The conveyor belt used for the production of the roving consists of so-called short staple fibers. Preferably, fibers of cotton or mixtures of cotton fibers and man-made fibers are used. When processing natural fibers such as cotton in a spinning process dirt or short fibers and parts of fibers are removed from the conveyor belt and get into the environment. Such flying components or resulting deposits pose a risk to the machine technology used. The degree of soiling increases with changes in running conditions, in particular with an increase in the speed of the lint production.

Today's roving machines for the production of lunts perform at multiple speeds than earlier machines. The high delivery speeds require appropriately adapted to the new circumstances winder.

CONFIRMATION COPY From the man-made fiber production winding machines are known, which are suitable for continuous running at high speed threads and at a Spulhülsenwechsel no change resp. Lower delivery performance. Such a winding machine, for example, EP 1 053 967 discloses. The winding machine has a turret winding head, on which two Spulendorne are held. A first bobbin is in a winding position and a second bobbin is in a doffing position. In the Dofferposition the full bobbins are removed from the mandrel and replaced by empty tubes. When the bobbins in the winding position are full, the turret is turned through 180 ° and the bobbins are thawed. The running threads are separated without interruption or reduction of delivery performance by the rotation of the revolver from the full bobbins and taken over by the empty tubes. The spool pins are arranged horizontally. The thread guide from which the thread changes to traversing, is located at a certain distance from the traversing itself. This results in a longer for the thread from the thread guide to the outermost position of the traversing

Away, as if the traverse is in the middle position. Due to this, any movement of the traversing results in a certain delay. The yarns processed in the described winding machines are endless threads made of a polymer. Therefore, as a rule, no dirt or flying dust as well as short fibers extracted from the fiber structure arise. In contrast, cotton processing is associated with a significant amount of dirt, dust and short fibers or fragments of fibers. This circumstance leads to the fact that cotton processing machines are equipped with cleaning and suction.

The object of the present invention is therefore to provide a device for winding roving, which enables a continuous roving of a roving and is able to keep the device from a raw material-related pollution, in particular should be maintenance-consuming components such as drives and bearings from contamination by flying around or Depositing dirt particles and short fibers are preserved. The object is achieved by a drive unit for driving a turret winding head for winding a roving with the features of independent claim 1. The turret winding head comprises a closed housing, wherein a turret base plate is formed as a part of the housing. In the revolver base plate outside the housing, a first spindle and a second spindle are arranged. The first spindle is provided with a first drive and the second spindle with a second drive, wherein the drives are arranged within the housing. The first and the second drive are each equipped with a fan. At the first drive and at the second drive, a suction duct is provided on the suction side of the fan wheel, by means of which an intake of air through the fan wheel from outside the housing is provided.

The revolver winding head according to the invention is constructed in its design similar to the known turret winding heads from the man-made fiber technology. However, unlike conventional turret winders, the turret base plate is horizontal and the spindles mounted in the turret base plate are arranged vertically. This makes it possible to use according to the prior art flyer sleeves for winding. This has the advantage that there is compatibility with the subsequent final spinning processes and no rewinding or even retooling of the downstream machines has to take place. Flyer sleeves according to the prior art are disclosed, for example, by EP 0 927 696.

In order to keep the drive units of the spindles and the turret base plate free of contamination, these are accommodated in a housing below the revolver base plate. The drive units include the motors and necessary gears and the power transmission elements such as belt drives or clutches and brakes or other equipment necessary for driving the various elements. The turret base plate forms a part of the housing. The motors for driving the spindles are equipped with a fan. Since during the winding process always one of the two spindles and thus also the associated drive is in operation, air is also routed to the cooling of the engine via the cooling fan via the corresponding fan. This fact makes the invention use. On the suction side of the fan wheel, an intake passage is provided, which connects an opening in the housing with the suction opening of the fan wheel. As a result, we sucked air from outside the housing through the fan and blown it into the housing. Each of the two spindle drives is provided with a separate intake duct for the respective fan wheel. The two intake ports also connect two independent ports to the respective fan. Preferably, the intake ports are equipped with a filter. This filter prevents dust and dirt from being sucked in by a fan and inserted into the housing. Various types of filters can be used, adapted to the dust concentration requirements within the housing. Conceivable are simple mesh screens, filters made of textile fabric and other known from the prior art filter.

The housing is not made air or dustproof. Thus, no closure member is provided for the closure in the intake. Also, it is not necessary to seal the rotatable turret base plate against the housing wall. The air drawn in by the operating fan is blown into the interior of the housing, causing an overpressure to the environment. If the overpressure reaches a certain value, the air escapes automatically through the existing deliberately created leaks into the environment. The prevailing negative pressure in the housing corresponds to the pressure loss of all existing leaks and automatically adjusts itself due to the size of the leaks. One of the leaks, for example, is the intake passage of the inoperative drive of the spindle located in the doffer position. The prevailing in the interior of the housing overpressure ingress of contamination is avoided and it is given in a dusty environment high reliability.

Preferably, the drive of a spindle is an electric motor with an attached fan. Also conceivable are hydraulic or pneumatic drives. For the power transmission from the electric motor to the spindle a belt drive is provided. Due to the arrangement and speeds, a transmission is advantageously connected between the electric motor and the belt drive. The first drive of the first spindle and the second drive of the second spindle is installed in the housing with the associated intake ports stationary. Since the spindles each change their position relative to the motors with a rotation of the revolver is a belt drive which on pulleys which are mounted on a hollow shaft in the turret axis advantageous. In such an arrangement, a stabilization of the turret base plate is achieved by a mirror-image arrangement of the motors by the forces acting on the axis of the turret base plate. By the belt tension forces of the first drive from one side of the turret base plate axis and the belt tensioning forces of the second drive from the other side of the turret base plate axis, the turret base plate is held in a defined position. The turret base itself can be driven by a motor which is provided with a belt or chain drive. It can also be provided a direct drive via a corresponding sprocket. During operation of the turret winding head, the air sucked in by the fan wheel of the drive in operation is supplied to the drive via a filter through the suction channel from outside the housing. By sucking in the air from outside the housing, an overpressure arises within the housing, the size of which is determined by leaks present in the housing and the intake passage of the drive which is not in operation. The air flowing outwards through the intake duct of the drive which is not in operation also leads to the cleaning of the filter installed in the intake duct and in the intake duct. The amount of negative pressure can be determined by the number and size of the leaks in the housing. Preferably, the negative pressure and the type and size of the filter provided in the intake duct are selected such that self-cleaning of the filters in the intake duct results.

The invention will be explained in more detail with reference to figures.

FIG. 1 shows a revolving winding head in a schematic representation. In a housing 20, a revolver base plate 2 is held and rotatably supported. The revolver base plate 2 is arranged horizontally and has a vertical axis of rotation 3. The revolver base plate 2 is rotated by a drive about the rotation axis 3 in steps of 180 °, according to the arrow 8. In the revolver base plate 2, a first spindle 4 and a second spindle 6 are held and rotatably supported. The first spindle 4 is connected via its axis of rotation 5 with a drive. The second spindle 6 is connected via its axis of rotation 7 with a drive. The first and the second spindle 4, 6 are driven independently of each other. Advantageously, the drives of the first and second spindle 4, 6 are equipped with a frequency control.

The first spindle 4 is in the illustration of Figure 1 in the winding position. On the spindle 4, an empty winding tube 10 is placed. On the winding tube 10 a Vorvor 1 is wound up. The roving 1 is wound on the winding tube 10 via the traversing means 11. The traversing means 11 are connected to the housing 20 and are held by this. The traversing means 11 comprise a movable element which moves up and down along the winding tube 9, resulting in a uniform winding with roving of the winding tube 10 rotating about the rotation axis 5.

The second spindle 6 is located in the representation of Figure 1 in the doffer position. The second spindle 6 has already been freed from the full winding tube. The removal of full bobbins and the placement of empty bobbins 10 can be done automatically by appropriate manipulators or robots. The spindle 6 is provided in its upper region with a fastening element 9. The fastening element 9 is used to stabilize a winding tube 10 on the spindle 6. An empty winding tube 10 is placed from above on the spindle 6 and then held by the fastener rotatably 9. The fastening element 9 may be, for example, a pneumatic tensioning device, which is depressurized after placement of the winding tube and thereby undergoes a radial expansion, which results in a winding tube being clamped on the spindle 6.

When the winding tube 10 is provided with a full winding, the revolver base plate 2 is rotated around its axis 3 by half a turn (180 °) in the direction of the arrow 8. As a result, the first and second spindles 4, 6 exchange positions. The

Traversing means 11 are not carried along with the rotation of the revolver base plate 2. By the rotation of the revolver base plate 2, the empty winding tube 10, which is is on the second spindle 6, rotated in the winding position and thus in the course of the roving 1 in. The roving 1 is thereby taken over by the empty winding tube 10 and separated from the full winding tube. For the takeover of the roving

1 on the empty winding tube this is provided at a certain point with a safety device. By the traversing means 11, the roving 1 is guided to the point of this safety gear. Once the roving 1 has been taken over by the empty winding tube, the traversing means 11 begin with the uniform winding of the roving 1 on the empty winding tube by a controlled up and down movement. In the wall of the housing 20 openings for the connection of intake ports are provided, which are each closed with a filter 21, 22.

Figure 2 shows a schematic representation of a partial cross section through the turret winding head according to the figure 1. The turret base plate 2 is a part of the housing 20. Between the turret base plate 2 and the housing 20, a game 31 is present. The revolver base plate 2 is mounted with its axis of rotation 3 in the housing 20 and by a drive (not shown) rotatable in the direction of arrow 8. In the revolver base plate

2, the first spindle 4 is held and stored. Fixedly mounted in the housing 20 is the electric motor 25 for driving the spindle 4. The electric motor 25 is equipped with a fan wheel 24. The motor shaft of the electric motor 25 merges into a gear 26, to which a belt drive 28 connects. About the belt drive 28, the spindle 4 is rotated. The belt drive 28 is applied in two stages and leads via a hollow shaft 27, which is arranged in the rotation axis 3 of the revolver base plate 2. By this arrangement, the revolver base plate 2 can be rotated by 80 ° in a Spulwechsel of the first spindle 4 to the second spindle, without the drive of the spindle 4 must be changed in position.

On the suction side of the fan 24, an intake passage 23 is connected. Through the intake passage 23, a connection from the fan 24 to an opening in the housing 20 is provided. In the opening of the housing 20, a filter 21 is installed. During operation of the electric motor 25, the fan 24 is also driven and sucks air from outside the housing 20 via the filter 21, it results in a suction Ström 29. The electric motor 25 is in operation when the spindle 4 is in the winding position. From the fan 24, the suction flow 29 is conducted via the cooling ribs of the electric motor 25 into the interior of the housing 20 and results in an incoming air flow 30. About leaks in the housing 20, which were deliberately created escapes through the fan 24 in the housing 20th blown air again. Leaks are formed for example by the suction of the stationary drive located in the doffer position spindle or the game 31 between the housing 20 and revolver base plate 2. It can also be provided further leaks, for example, at the seams of the housing walls. By the inflowing air flow 30 resulting pressure in the housing 20 ensures that there is always a flow from the interior of the housing 20 to the outside at the leaks of the housing 20. This prevents ingress of dust and dirt into the interior of the housing 20 and increases the reliability of the entire drive unit.

Legend

1 roving

2 revolver base plate

3 axis of rotation of the revolver base plate

4 First spindle

5 axis of rotation of the first spindle

6 Second spindle

7 Direction of rotation of the second spindle

8 Direction of rotation of the turret base plate

9 fastener

10 winding tube

1 1 traversing means

20 housing

21, 22 filters

23 intake duct drive first spindle

24 fan wheel

25 electric motor

26 gears

27 belt drive

28 hollow shaft

29 intake flow

30 inflowing airflow

31 Play between housing and turret base plate

Claims

claims

A drive unit for driving a turret reel head having a closed housing (20) having first and second spindles (4, 6) disposed in a turret base plate (2), the turret base plate (2) being part of the housing (20) is formed and the spindles (4, 6) outside the housing (20) are arranged, and with a first drive (25, 26, 28) for the first spindle (4) and a second drive for the second spindle ( 6), wherein the drives are arranged within the housing (20) and the first and the second drive are each equipped with a fan wheel (24), characterized in that at the first and second drive suction side of the fan wheel (24) respectively Intake passage (23) is provided, through which an intake of air through the fan wheel (23) from outside the housing (20) is provided.

2. Drive unit according to claim 1, characterized in that in the intake passage (23) a filter (21, 22) is provided.

3. Drive unit according to claim 1 or 2, characterized in that the housing (20) has leaks, through which during operation of the first or second spindle (4, 6), a drainage of the sucked air is provided.

4. Drive unit according to one of the preceding claims, characterized in that during operation of the first or second spindle (4, 6) in the housing (20) is an overpressure.

5. Drive unit according to one of the preceding claims, characterized in that the first and the second spindle (4, 6) are arranged vertically on the horizontally arranged turret base plate (2).

6. Drive unit according to one of the preceding claims, characterized in that the first and the second drive by an electric motor 25) with a Fan (24) and a belt drive (27) are formed.

7. Drive unit according to claim 6, characterized in that the turret base plate (2) by the arrangement of the first and the second drive via the belt drive (28) is held in a defined position.

8. A method for operating a revolver winding head with a closed housing (20), with a first spindle (4) which is driven by a first drive (25, 26, 28), and with a second spindle (6), which is driven by a second drive, wherein the drives are arranged within the housing (20) and the first and the second drive are each equipped with a fan wheel (24), characterized in that the first and the second drive are alternately in operation and the air (29) sucked by the fan wheel (24) of the respective drive in operation is fed to the drive via a filter (21, 22) through an intake duct (23) from outside the housing (20).

9. The method according to claim 9, characterized in that by the suction of the air from outside the housing (20) within the housing (20) creates an overpressure.

10. The method according to claim 10, characterized in that the overpressure in the housing (20) existing leaks (31) and the intake passage (23) of the non-operational drive is determined.

11. The method according to any one of the preceding claims, characterized in that the outwardly flowing air for cleaning the in the intake passage (23) built-filter (21, 22) of the non-operational drive leads.